Antibacterial spectrum and some other characteristics of an antimicrobial factor produced by Yersinia ruckeri

Yersinia ruckeri produces an antibacterial factor which inhibits the growth of a wide spectrum of Gram-negative and Gram-positive bacteria, though not other strains of Y. ruckeri. The antibacterial factor was produced at low temperatures (4-20 degrees C), but not at 37 degrees C. The activity was lost after treatment of the supernatant with chloroform, UV-light and after boiling of the supernatant. One did not succeed in obtaining the antibacterial factor in a sterile solution.     

Characterization of Escherichia coli strains isolated from pigs with edema disease.

Escherichia coli strains belonging to serogroups O 138 and O 139 isolated from pigs with edema disease, were characterized with respect to the presence of genes encoding Shiga-like toxin I, Shiga-like toxin II and Shiga-like toxin IIv (SLT I, SLT II and SLT IIv). Genes coding for the heat-stable and heat-labile enterotoxins (ST I and LT I) were also detected. Plasmid profiling, restriction enzyme digestion of total DNA, and ribotyping were performed for further characterization of the strains. The oligonucleotide probes applied in this study appeared to be useful tools for detecting genes coding cytotoxins and enterotoxins. DNA from 12 of 16 strains hybridized with two SLT II probes, and DNA from two SLT IIv encoding strains also hybridized with the ST I probe. DNA from one SLT IIv negative strain hybridized with the LT I probe. The results from plasmid profiling, restriction enzyme digestion, and ribotyping were compared with serogrouping in attempts to distinguish between the different E. coli edema disease isolates. Fourteen different plasmid profiles were identified, and as restriction patterns barely did, and ribotyping patterns did not, reveal any information useful for differentiation of the strains beyond serogroup level, plasmid profiling seemed to be the most suitable method for discrimination between the edema disease strains investigated here.     

Occurrence and Characterization of Escherichia coli O157 Isolated from Cattle in Norway

Faecal samples from 504 imported beef cattle were screened to investigate the occurrence of Escherichia coli O157. The results were compared with those from a previous screening of Norwegian dairy cattle, and the occurrence was found to be higher in the imported beef cattle. The E. coli O157 isolates from the previous and present studies were characterized for the genes encoding for shigatoxin 1 (stx ₁), shigatoxin 2 (stx ₂), the intimin protein (eae) and the flagellar protein H7 (fliC) using PCR analysis, pulsed-field gel electrophoresis (PFGE) with the restriction enzyme XbaI, and bacteriophage lambda RFLP analysis using the PvuII restriction enzyme. The isolates from the dairy and beef cattle could be distinguished by the profiles of the toxin genes and by PFGE patterns. Whether the importation of animals in itself should be regarded as a risk factor for the occurrence of E. coli O157, or whether other management factors contribute to the differences in carrier rates compared to the previous study on domestic cattle, is discussed.     

Specific DNA fragments coding for ST1 and LT1 toxins, and K88 (F4) adhesin in enterotoxigenic Escherichia coli

Ten porcine strains of enterotoxigenic Escherichia coli possessing the K88 (F4) adhesion fimbriae, were selected for study of enterotoxin- and fimbriae-encoding plasmids. Plasmid DNA, separated according to size by gel electrophoresis was transferred to nylon membranes by Southern blotting, and hybridized with enzyme-labelled oligonucleotide probes for ST1 and LT1 enterotoxins, and a 32P-labelled probe for the F4 fimbriae. Plasmids possessing the enterotoxin genes ranged from 50 MDa to 78 MDa in size. The ST1 genes were located on a common 8-MDa EcoR1 restriction endonuclease fragment, while the LT1 genes were located on a 4.5-MDa EcoR1 fragment from the different plasmids. Plasmids with the F4 genes ranged from 50 MDa to 118 MDa in size, but the F4 encoding genes were located on a common 3-MDa HindIII restriction endonuclease fragment. ST1 and LT1 genes were found on the same plasmid in only one strain, LT1 and F4 genes on the same plasmids in 5 strains, while no plasmid contained genes for both ST1 and F4.